Introduction

This section contains recommendations of literature by workshop participants. It is not necessarily work done by the participants, but rather the type of literature that is recommended to the other to become more versed in the topic of self-organizing systems. Books that are recommended might be likely used in the case a master of self-organizing systems will be set up. If possible, a text explains why a book or article is about self-organizing systems or interesting as background material. For example graph theory as such does not necessarily describe self-organization. An explanation that relates those will be clarifying.

(Remove this later: For now, say every person can add 3 references to books (link to Amazon) and/or articles (link to web) that are interesting).

List of Books

Marc Timme recommends:

1. Complexity: Hierarchical Structures and Scaling in Physics

Books providing comprehensive introduction to the self-organisation:

1. G. Di Marzo Serugendo, M.P. Gleizes, A. Karageorgos (Eds) Self-Organising Software - From Natural to Artificial Adaptation, Springer, 2012
2. L. M. de Castro: Fundamentals of Natural Computing – Basic Concepts, Algorithms, and Applications. Chapman & Hall/CRC. 2006
3. S. Camazine, J.-L. Deneubourg, Nigel R. F., J. Sneyd, G. Téraulaz, and E.Bonabeau. Self-Organisation in Biological Systems. Princeton Studies in Complexity. Princeton University Press, 2001.
4. E. Bonabeau, M. Dorigo, and G. Théraulaz. Swarm Intelligence: From Natural to Artificial Systems, Santa Fe Institute Studies on the Sciences of Complexity. Oxford University Press, UK, 1999

List of Articles

Anne van Rossum recommends:

1. Origins of communication in evolving robots. Marocco, Nolfi - Lecture Notes in Computer Science, 2006 - Springer. This is about grounding communication. Robots evolve neural network weights such that the speaker-microphone interactions between robots becomes meaningful. That is they tell each other if they are on a colored spot. It is self-organized for the reason that meaningful communication elements are not predefined but arise by interactions between the robots. (They also use the term in the title of some of their articles. See also Steels etc.)
2. The ART of adaptive pattern recognition by a self-organizing neural network Carpenter, Grossberg - Computer, 1988. This article describes a class of neural networks in which there is self-organization in how patterns are stored. A neural network is plastic, so after enough new input patterns, the old information is washed away. Adaptive resonance theory [ART] enables a network to be robust against arbitrary sequences of inputs in a self-regulated manner. It is self-organized in the sense that it is unsupervised.
3. New robotics: Design principles for intelligent systems Pfeifer, Iida, Bongard - Artificial Life, 2005 - MIT Press. Coevolution of robot brain and robot body using a gene regulatory network. A gene regulatory network is itself self-organizing. Genes are interact and form the topology for the body and the brain.

Two encyclopedia articles with an overview of the concepts and theory:

• F Heylighen The science of self-organization and adaptivity (older, more detailed)
• F Heylighen Complexity and self-organization (most up-to-date)